Post-mortem validation of in vivo TSPO PET as a microglial biomarker

Neuroinflammation is a feature of many neurodegenerative diseases and is quantified in vivo by PET imaging with radioligands for the translocator protein (TSPO, e.g. 11C-PK11195). TSPO radioligand binding correlates with clinical severity and predicts clinical progression. However, the cellular subs...

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Published in	Brain (London, England : 1878) Vol. 148; no. 6; pp. 1904 - 1910
Main Authors	Wijesinghe, Sasvi S, Rowe, James B, Mason, Hannah D, Allinson, Kieren S J, Thomas, Reuben, Vontobel, Davi S, Fryer, Tim D, Hong, Young T, Bacioglu, Mehtap, Spillantini, Maria Grazia, van den Ameele, Jelle, O’Brien, John T, Kaalund, Sanne, Malpetti, Maura, Quaegebeur, Annelies
Format	Journal Article
Language	English
Published	England Oxford University Press 03.06.2025
Subjects	Aged Aged, 80 and over Autopsy Biomarkers - metabolism Brain - diagnostic imaging Brain - metabolism Brain - pathology Female Humans Isoquinolines Male Microglia - metabolism Microglia - pathology Middle Aged Positron-Emission Tomography - methods Receptors, GABA - metabolism Supranuclear Palsy, Progressive - diagnostic imaging Supranuclear Palsy, Progressive - metabolism Supranuclear Palsy, Progressive - pathology TSPO tauopathies neuroinflammation microglia PET post-mortem
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ISSN	0006-8950 1460-2156 1460-2156
DOI	10.1093/brain/awaf078

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Abstract	Neuroinflammation is a feature of many neurodegenerative diseases and is quantified in vivo by PET imaging with radioligands for the translocator protein (TSPO, e.g. 11C-PK11195). TSPO radioligand binding correlates with clinical severity and predicts clinical progression. However, the cellular substrate of altered TSPO binding is controversial and requires neuropathological validation. We used progressive supranuclear palsy (PSP) as a demonstrator condition, to test the hypothesis that 11C-PK11195 PET reflects microglial changes. We included people with PSP-Richardson's syndrome who had undergone 11C-PK11195 PET in life (n = 8). In post-mortem brain tissue from the same participants, we characterized cell-type specific TSPO expression and quantified microgliosis in eight cortical and 11 subcortical regions. Double-immunofluorescence labelling for TSPO and cell markers showed TSPO expression in microglia, astrocytes and endothelial cells. Microglial (and not astrocytic) TSPO levels were higher in donors with PSP compared to control subjects (n = 3), and correlated with changes in microglial burden. There was a significant positive correlation between regional 11C-PK11195 binding potential ante-mortem and the burden of post-mortem CD68+ phagocytic microglia, as well as microglial TSPO levels. We conclude that in vivo disease-related changes in 11C-PK11195 binding is largely driven by microglia and can be interpreted as a biomarker of microglia-mediated neuroinflammation in tauopathies.
AbstractList	Neuroinflammation is a feature of many neurodegenerative diseases and is quantified in vivo by PET imaging with radioligands for the translocator protein (TSPO, e.g. 11 C-PK11195). TSPO radioligand binding correlates with clinical severity and predicts clinical progression. However, the cellular substrate of altered TSPO binding is controversial and requires neuropathological validation. We used progressive supranuclear palsy (PSP) as a demonstrator condition, to test the hypothesis that 11 C-PK11195 PET reflects microglial changes. We included people with PSP-Richardson's syndrome who had undergone 11 C-PK11195 PET in life ( n = 8). In post-mortem brain tissue from the same participants, we characterized cell-type specific TSPO expression and quantified microgliosis in eight cortical and 11 subcortical regions. Double-immunofluorescence labelling for TSPO and cell markers showed TSPO expression in microglia, astrocytes and endothelial cells. Microglial (and not astrocytic) TSPO levels were higher in donors with PSP compared to control subjects ( n = 3), and correlated with changes in microglial burden. There was a significant positive correlation between regional 11 C-PK11195 binding potential ante-mortem and the burden of post-mortem CD68+ phagocytic microglia, as well as microglial TSPO levels. We conclude that in vivo disease-related changes in 11 C-PK11195 binding is largely driven by microglia and can be interpreted as a biomarker of microglia-mediated neuroinflammation in tauopathies. TSPO PET has been used to measure inflammation in dementia, but the cellular substrate of altered TSPO binding is unclear. Wijesinghe et al. used PET imaging and post-mortem brain tissue from individuals with progressive supranuclear palsy to show that microglia are the key immune cells driving TSPO PET signal changes. Neuroinflammation is a feature of many neurodegenerative diseases, and is quantified in vivo by PET imaging with radioligands for the translocator protein (TSPO, e.g. [11C]-PK11195). TSPO radioligand binding correlates with clinical severity and predicts clinical progression. However, the cellular substrate of altered TSPO binding is controversial and requires neuropathological validation. We used progressive supranuclear palsy (PSP) as a demonstrator condition, to test the hypothesis that [11C]-PK11195 PET reflects microglial changes. We included people with PSP-Richardson's syndrome who had undergone [11C]-PK11195 PET in life (n=8). In post-mortem brain tissue from the same participants, we characterised cell-type specific TSPO expression and quantified microgliosis in eight cortical and eleven subcortical regions. Double-immunofluorescence labelling for TSPO and cell markers showed TSPO expression in microglia, astrocytes, and endothelial cells. Microglial (and not astrocytic) TSPO levels were higher in donors with PSP compared to controls (n=3), and correlated with changes in microglial density. There was a significant positive correlation between regional [11C]-PK11195 binding potential ante-mortem and the density of post-mortem CD68+ phagocytic microglia, as well as microglial TSPO levels. We conclude that in vivo disease-related changes in [11C]-PK11195 binding is largely driven by microglia and can be interpreted as a biomarker of microglia-mediated neuroinflammation in tauopathies.Neuroinflammation is a feature of many neurodegenerative diseases, and is quantified in vivo by PET imaging with radioligands for the translocator protein (TSPO, e.g. [11C]-PK11195). TSPO radioligand binding correlates with clinical severity and predicts clinical progression. However, the cellular substrate of altered TSPO binding is controversial and requires neuropathological validation. We used progressive supranuclear palsy (PSP) as a demonstrator condition, to test the hypothesis that [11C]-PK11195 PET reflects microglial changes. We included people with PSP-Richardson's syndrome who had undergone [11C]-PK11195 PET in life (n=8). In post-mortem brain tissue from the same participants, we characterised cell-type specific TSPO expression and quantified microgliosis in eight cortical and eleven subcortical regions. Double-immunofluorescence labelling for TSPO and cell markers showed TSPO expression in microglia, astrocytes, and endothelial cells. Microglial (and not astrocytic) TSPO levels were higher in donors with PSP compared to controls (n=3), and correlated with changes in microglial density. There was a significant positive correlation between regional [11C]-PK11195 binding potential ante-mortem and the density of post-mortem CD68+ phagocytic microglia, as well as microglial TSPO levels. We conclude that in vivo disease-related changes in [11C]-PK11195 binding is largely driven by microglia and can be interpreted as a biomarker of microglia-mediated neuroinflammation in tauopathies. Neuroinflammation is a feature of many neurodegenerative diseases and is quantified in vivo by PET imaging with radioligands for the translocator protein (TSPO, e.g. 11C-PK11195). TSPO radioligand binding correlates with clinical severity and predicts clinical progression. However, the cellular substrate of altered TSPO binding is controversial and requires neuropathological validation. We used progressive supranuclear palsy (PSP) as a demonstrator condition, to test the hypothesis that 11C-PK11195 PET reflects microglial changes. We included people with PSP-Richardson's syndrome who had undergone 11C-PK11195 PET in life (n = 8). In post-mortem brain tissue from the same participants, we characterized cell-type specific TSPO expression and quantified microgliosis in eight cortical and 11 subcortical regions. Double-immunofluorescence labelling for TSPO and cell markers showed TSPO expression in microglia, astrocytes and endothelial cells. Microglial (and not astrocytic) TSPO levels were higher in donors with PSP compared to control subjects (n = 3), and correlated with changes in microglial burden. There was a significant positive correlation between regional 11C-PK11195 binding potential ante-mortem and the burden of post-mortem CD68+ phagocytic microglia, as well as microglial TSPO levels. We conclude that in vivo disease-related changes in 11C-PK11195 binding is largely driven by microglia and can be interpreted as a biomarker of microglia-mediated neuroinflammation in tauopathies. Neuroinflammation is a feature of many neurodegenerative diseases and is quantified in vivo by PET imaging with radioligands for the translocator protein (TSPO, e.g. 11C-PK11195). TSPO radioligand binding correlates with clinical severity and predicts clinical progression. However, the cellular substrate of altered TSPO binding is controversial and requires neuropathological validation. We used progressive supranuclear palsy (PSP) as a demonstrator condition, to test the hypothesis that 11C-PK11195 PET reflects microglial changes. We included people with PSP-Richardson's syndrome who had undergone 11C-PK11195 PET in life (n = 8). In post-mortem brain tissue from the same participants, we characterized cell-type specific TSPO expression and quantified microgliosis in eight cortical and 11 subcortical regions. Double-immunofluorescence labelling for TSPO and cell markers showed TSPO expression in microglia, astrocytes and endothelial cells. Microglial (and not astrocytic) TSPO levels were higher in donors with PSP compared to control subjects (n = 3), and correlated with changes in microglial burden. There was a significant positive correlation between regional 11C-PK11195 binding potential ante-mortem and the burden of post-mortem CD68+ phagocytic microglia, as well as microglial TSPO levels. We conclude that in vivo disease-related changes in 11C-PK11195 binding is largely driven by microglia and can be interpreted as a biomarker of microglia-mediated neuroinflammation in tauopathies.
Author	Bacioglu, Mehtap Thomas, Reuben Mason, Hannah D Fryer, Tim D Hong, Young T Spillantini, Maria Grazia Wijesinghe, Sasvi S van den Ameele, Jelle Rowe, James B Quaegebeur, Annelies O’Brien, John T Kaalund, Sanne Vontobel, Davi S Allinson, Kieren S J Malpetti, Maura
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Keywords	TSPO tauopathies neuroinflammation microglia PET post-mortem
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License	https://creativecommons.org/licenses/by/4.0 The Author(s) 2025. Published by Oxford University Press on behalf of the Guarantors of Brain. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
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Snippet	Neuroinflammation is a feature of many neurodegenerative diseases and is quantified in vivo by PET imaging with radioligands for the translocator protein... Neuroinflammation is a feature of many neurodegenerative diseases, and is quantified in vivo by PET imaging with radioligands for the translocator protein... Neuroinflammation is a feature of many neurodegenerative diseases and is quantified in vivo by PET imaging with radioligands for the translocator protein...
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SubjectTerms	Aged Aged, 80 and over Autopsy Biomarkers - metabolism Brain - diagnostic imaging Brain - metabolism Brain - pathology Female Humans Isoquinolines Male Microglia - metabolism Microglia - pathology Middle Aged Positron-Emission Tomography - methods Receptors, GABA - metabolism Supranuclear Palsy, Progressive - diagnostic imaging Supranuclear Palsy, Progressive - metabolism Supranuclear Palsy, Progressive - pathology
Title	Post-mortem validation of in vivo TSPO PET as a microglial biomarker
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